Paleostress evolution of the northern Andes (Eastern Cordillera of Colombia): Implications on plate kinematics of the South Caribbean region

The earliest known members of the Thais clade of rapanine muricid neogastropods comprise four species from the Cantaure Formation (early Miocene: Burdigalian) of Venezuela; three of these species are new. Neorapana rotundata Gibson-Smith et al., 1997, is most closely related to the Recent Pacific Mexican N. tuberculata (Sowerby, 1835), and represents the only known Atlantic occurrence of the genus. Thais brevicula new species is closest to T. callaoensis (Gray, 1828) from the Recent of northern Peru and the Galápagos. A review of the genus Thais indicates that the typical members of this group occur in the South Atlantic, West Africa, and eastern Pacific, but not in the Recent fauna of the southern Caribbean. Stramonita bifida new species is a large species related to the Recent S. haemastoma floridana (Conrad, 1837), which occurs throughout the Caribbean. A review of American species of Stramonita indicates that the taxon S. biserialis (de Blainville, 1832) from the Recent fauna of the eastern Pacific, and the taxon S. h. haemastoma (Linnaeus, 1767), may each be composed of more than one species despite the teleplanic dispersal of their larvae. Stramonita semiplicata new species is closely related to the Recent S. bicarinata (de Blainville, 1832) from the South Atlantic, and represents a lineage that occurred in the Caribbean region until at least the late Miocene. It may have given rise to the eastern Pacific genus Acanthais. The higher diversity and greater antipredatory specialization of eastern Pacific as compared to western Atlantic members of the Thais clade may have resulted from higher post-Miocene rates of speciation and lower extinction rates in the eastern Pacific.

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Evaluating foreland basin partitioning in the northern Andes using Cenozoic fill of the Floresta basin, Eastern Cordillera, Colombia

Basin Research ◽

10.1111/j.1365-2117.2010.00493.x ◽

2010 ◽

Vol 23 (4) ◽

pp. 377-402 ◽

Cited By ~ 35

Author(s):

Joel E. Saylor ◽

Brian K. Horton ◽

Junsheng Nie ◽

Jaime Corredor ◽

Andrés Mora

Keyword(s):

Foreland Basin ◽

Northern Andes ◽

Eastern Cordillera

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Geodynamic study of the north of the Andes block (Colombia, Panama, Ecuador and Venezuela) through gnss-gps: models of displacements, models of deformation and definition of local and regional geodynamic structures.

10.5194/egusphere-egu2020-21362 ◽

2020 ◽

Author(s):

Berrocoso Manuel ◽

Del Valle Arroyo Pablo Emilio ◽

Colorado Jaramillo David Julián ◽

Gárate Jorge ◽

Fernández-Ros Alberto ◽

...

Keyword(s):

South America ◽

Seismic Activity ◽

Great Part ◽

Velocity Model ◽

South American ◽

The South ◽

South American Plate ◽

Northern Andes ◽

Velocity Models ◽

The North

<p>The northwest of South America is conformed by the territories of Ecuador, Colombia and Venezuela. Great part of these territories make up the Northern Andes Block (BAN). The tectonic and volcanic activity in the northwest of South America is directly related to the interaction of the South American plate, and the Nazca and Caribbean plates, with the Maracaibo and Panama-Choc&#243; micro plates. The high seismic activity and the high magnitude of the recorded earthquakes make any study necessary to define this complex geodynamic region more precisely. This work presents the velocity models obtained through GNSS-GPS observations obtained in public continuous monitoring stations in the region. The observations of the Magna-eco network (Agust&#237;n Codazzi Geographic Institute) are integrated with models already obtained by other authors from the observations of the GEORED network (Colombian Geological Service). The observations have been processed using Bernese software v.52 using the PPP technique; obtaining topocentric time series. To obtain the speeds, a process of filtering and adjustment of the topocentric series has been carried out. Based on this velocity model, regional structures have been defined within the Northern Andes Block through a differentiation process based on the corresponding speeds of the South American, Nazca and Caribbean tectonic plates. Local geodynamic structures within the BAN itself have been established through cluster analysis based on both the direction and the magnitude of each of the vectors obtained. Finally, these structures have been correlated with the most significant geodynamic elements (fractures, faults, subduction processes, etc.) and with the associated seismic activity.</p>

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Atlantic Multidecadal Oscillation (AMO) forcing on the late Holocene Cauca paleolake dynamics, northern Andes of Colombia

Climate of the Past Discussions ◽

10.5194/cpd-11-2649-2015 ◽

2015 ◽

Vol 11 (4) ◽

pp. 2649-2664 ◽

Cited By ~ 4

Author(s):

J. I. Martínez ◽

S. Obrochta ◽

Y. Yokoyama ◽

R. W. Battarbee

Keyword(s):

Late Holocene ◽

Water Environment ◽

Atlantic Multidecadal Oscillation ◽

Wavelet Spectrum ◽

Time Interval ◽

The South ◽

Northern Andes ◽

Black Water ◽

The One ◽

Lake Deposits

Abstract. The Atlantic Multidecadal Oscillation (AMO), is a major driving climate mechanism, in the eastern Caribbean Sea and the South Atlantic Ocean in relation to the dynamics of the South American Monsoon System (SAMS) for the late Holocene. Here we document the AMO signal in the San Nicolás-1 core of the Cauca paleolake (Santa Fé–Sopetrán Basin) in the northern Andes. Wavelet spectrum analysis of the gray scale of the San Nicolás-1 core provides evidence for a 70 yr AMO periodicity for the 3750 to 350 yr BP time interval, whose pattern is analogous to the one documented for the Cariaco Basin. This supports a possible correlation between enhanced precipitation and ENSO variability with a positive AMO phase during the 2000 to 1500 yr BP interval, and its forcing role on the Cauca ria lake deposits, which led to increased precipitation and to the transition from a igapo (black water) to a varzea (white water) environment ca. 3000 yr BP.

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Eastward Extent Of The Late Eocene-Early Oligocene Onset Of Deformation Across The Northern Andes: Constraints From The Northern Portion Of The Eastern Cordillera Fold Belt, Colombia, And Implications For Regional Oil Exploration

10.3997/2214-4609-pdb.33.paper4 ◽

2003 ◽

Author(s):

F. Corredor

Keyword(s):

Late Eocene ◽

Oil Exploration ◽

Fold Belt ◽

Northern Andes ◽

Eastern Cordillera ◽

Early Oligocene ◽

Northern Portion

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Floristics of the South American Páramo Moss Flora

Bryophyte Diversity and Evolution ◽

10.11646/bde.2.1.10 ◽

1990 ◽

Vol 2 (1) ◽

pp. 127-132

Author(s):

Dana Griffin III

Keyword(s):

South America ◽

Southern Hemisphere ◽

Cloud Forest ◽

South American ◽

Long Distance Dispersal ◽

The South ◽

Long Distance ◽

Late Pliocene ◽

Northern Andes ◽

The Past

The South American paramos appeared in Pliocene times and persist to the present day. The moss flora of this habitat consists of an estimated 400 species that comprise 8 floristic groups. In Venezuela these groups and their percent representation are as follows: neotropical 37%, Andean 26%, cosmopolitan 18%, Andean-African 8%, neotropical-Asiatic 3%, neotropical-Australasian 2%, temperate Southern Hemisphere 2% and northern boreal-temperate 2%. Acrocarpous taxa outnumber pleurocarps by nearly 3:1. The neotropical and Andean floristic stocks likely were present prior to late Pliocene orogenies that elevated the cordillera above climatic timberlines. These species may have existed in open, marshy areas (paramillos) or may have evolved from cloud forest ancestors. Taxa of northern boreal- temperate affinities, including those with Asiatic distributions, probably arrived in the paramos during the Pleistocene, a period which may also have seen the establishment in the Northern Andes of some cosmopolitan elements. Species with temperate Southern Hemisphere and Australasian affinities likely spread first to austral South America thence migrated northward during a cool, moist interval sometime over the past 2.5-3 million years or may have become established in the paramos as a result of long- distance dispersal.

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